Resolving CO2 and methane hydrate formation kinetics

We analyse the kinetics of CO2 and methane hydrate formation. The characteristic formation times are associated with different steps of the formation process. Conditions for minimising these rate times are identified while maintaining a regime where CO2 hydrate is formed and methane remains predomin...

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Bibliographic Details
Main Authors: Golombok, M. (author), Ineke, E. (author), Luzardo, J.C.R. (author), He, Y.Y. (author), Zitha, P. (author)
Format: Article in Journal/Newspaper
Language:English
Published: Springer 2008
Subjects:
CO2
Online Access:http://resolver.tudelft.nl/uuid:6a15cbb9-86ca-42ed-ac25-a50534623c7a
Description
Summary:We analyse the kinetics of CO2 and methane hydrate formation. The characteristic formation times are associated with different steps of the formation process. Conditions for minimising these rate times are identified while maintaining a regime where CO2 hydrate is formed and methane remains predominantly gaseous. This involves a rapid pressurisation routine and accesses points well above the phase boundary in order to enable faster kinetics. Conditions for optimising rates and times, to obtain maximum CO2 uptake with respect to CH4, were identified as (1) stirring faster than 1,000 rpm, (2) rapid pressurisation to a partial pressure of around 50 bar for CO2 and (3) re-use of contaminated as opposed to fresh water. Department of Geotechnology Civil Engineering and Geosciences